DE3807269C1 - - Google Patents

Description

The invention is based on an optical communication cable according to the preamble of claim 1.

Such optical communication cables are known (DE 31 18 172 A1, DE 32 41 500 A1).

Longitudinal watertightness with optical communication cables can can be achieved in that the gaps between the coated optical fibers are filled with petroleum jelly. At Petrolate-filled optical cables can become dirty when stripping and splicing the optical fibers through the greasy petrolat come up resulting in poor splice connections Can have consequences. Furthermore, in the case of petrolates optical communication cables the insulation resistance of any existing copper pairs or star quads the diffusion of the petroleum parts in the plastic insulation of these copper veins diminished. To address these drawbacks were avoided according to the optical communication cables DE 31 18 172 A1 and DE 32 41 500 A1 all gaps between cable sheaths and the plastic sheathed Optical fibers with a moisture swelling Powder filled out.

The object of the invention is based on the preamble of Claim 1 to provide an easy to assemble cable, which has sufficient longitudinal water tightness. This task is characterized by the characteristics of the Claim 1 solved. The subclaims show advantageous further training.  

The optical communication cable according to the invention is Particularly easy to install in that the Swelling tape or swelling layer can be easily removed, which access to the optical fibers is facilitated. At cable manufacturing it is not necessary to use a swelling powder bring in. The swellable tapes or cords can be stranded in a simple way. With the invention Cables succeed in closing the voids between them Stranding elements - sleeves with optical fibers - and that Central element and between the stranding elements and the If necessary, provided strain relief elements in the case seal the water inlet within a few seconds. If water enters the cable as a result of damage, so by swelling the individual source layers Stranded voids sealed watertight. Since hollow or loose tubes of the cable filled with a tixotropic gel is a spreading of the water in the longitudinal direction of the cable not possible.

An embodiment of the Invention now explained in more detail. This shows the basic structure of an embodiment of the cable according to the invention.

The optical communication cable consists of a central element 1 , for example a glass fiber reinforced plastic rod, as a supporting element, the stranding elements in the form of sheaths 2 - loose tubes - in which the optical fibers 3 are guided. In order to prevent water from spreading within the loose tubes in the longitudinal direction of the cable, the loose tubes are filled with a tixotropic - swellable - gel. Sector-shaped strain relief elements 4 are provided around the stranding elements. A layer jacket 5 , preferably made of polyethylene, serves as an outer cable sheath.

According to the invention, the optical communication cable has tapes or layers of at least partially swellable material in order to prevent water from spreading in the longitudinal direction of the cable. As the figure shows as an exemplary embodiment, two bands 6 and 7 swellable with moisture are twisted helically around the central element 1, each with the opposite direction of lay. These swellable tapes 6, 7 can be firmly connected to the central element 1 , for example by gluing, before the stranding elements 2 are applied. Instead of two tapes, it may be sufficient to apply one tape. The swellable band or swellable bands can be constructed in layers. If the band (s) have only a swellable outer layer, the non-swellable outer layer is preferably arranged on the central element 1 . The tape or tapes can also have two swellable outer layers which are applied to the top and bottom of a non-swellable carrier layer. Instead of swellable tapes, which are stranded around the central element 1, the central element 1 may be a swellable layer, which is formed of a swelling powder, are provided, which layer is fixed for example by gluing to the central element.

In a further embodiment of the invention, the stranding elements - sleeves 2 - are tied with swellable bands 8, 9 , which preferably have two swellable outer layers. These tapes 8, 9 are stranded in the opposite direction of lay. If the stranding elements - sheaths 2 - are tied in a different way, it is usually sufficient to arrange a swellable band 8 with preferably two swelling layers helically above the tied stranding elements.

A further embodiment of the invention provides for stranded cords (not shown) to be stranded between the stranding elements - sleeves 2 .

An open-ended material can be used as swellable material Cellulose can be used.

Claims (11)

1. Longitudinally watertight optical communication cable with a central element ( 1 ), around which a plurality of optical waveguides ( 3 ) guided in sheaths ( 2 ) are arranged, and which contains a swellable material under moisture, characterized in that the swellable material is helical in the form of at least one partially swellable band ( 6, 7 ) or a swellable layer around the central element ( 1 ) is arranged. 2. Communication cable according to claim 1, characterized in that two tapes ( 6, 7 ) made of swellable material, each with the opposite direction of lay, are stranded around the central element ( 1 ). 3. Communication cable according to claim 1 or 2, characterized in that the swellable tape or the swellable tapes ( 6, 7 ) on the central element ( 1 ) is / are fixed, for example by gluing. 4. Communication cable according to one of claims 1 to 3, characterized in that the tape or tapes ( 6, 7 ) are constructed in layers, each with a swellable and a non-swellable outer layer. 5. Communication cable according to one of claims 1 to 3, characterized in that the tape or tapes ( 6, 7 ) are constructed in layers and have two swellable outer layers. 6. Communication cable according to claim 4, characterized in that the non-swellable outer layer of the tape or tapes rests on the central element ( 1 ). 7. Communication cable according to one of claims 1 to 6, characterized in that the sleeves ( 2 ) in which the optical fibers ( 3 ) are guided around the central element ( 1 ) and over the swellable band / bands ( 6, 7th ) / the swellable layer is stranded and that additional swellable tapes ( 8, 9 ) with two swelling layers are provided to bind the stranded casings ( 2 ). 8. Communication cable according to one of claims 1 to 6, characterized in that the sleeves ( 2 ) in which the optical fibers ( 3 ) are guided around the central element ( 1 ) and above the swellable band / bands ( 6, 7th ) / the swellable layer are stranded and that a swellable band ( 8 ) with two swelling layers is additionally arranged in the longitudinal direction above the tied stranded casings ( 2 ). 9. Communication cable according to one of claims 1 to 8, characterized in that between the sleeves ( 2 ) in which the optical fibers ( 3 ) are guided, swellable cords are also stranded. 10. Communication cable according to one of claims 1 to 9, characterized in that the sleeves ( 2 ), in which the optical fibers ( 3 ) are guided, are filled with a swellable material. 11. Communication cable according to one of claims 1, 2, 3, 9 or 10, characterized in that the swellable layer arranged around the central element ( 1 ) is formed from a swelling powder, and that this layer is fixed to the central element ( 1 ), for example by gluing is.